Étude de l’implication de la force du signal transmis par le récepteur des cellules T dans le développement et la survie des lymphocytes T mémoires

Suite à la rencontre d’un antigène (Ag) présenté à la surface des cellules présentatrice de l’Ag (CPA), les lymphocytes T naïfs, ayant un récepteur des cellules T (RCT) spécifique de l’Ag, vont proliférer et se différencier en LT effecteurs (1). Suite à l’élimination de l’Ag la majorité des LTe vont mourir par apoptose alors que les restants vont se différencier en LT mémoire (LTm) protégeant l’organisme à long terme. Les mécanismes qui permettent la différenciation des LTe en LTm sont encore inconnus. Pour comprendre comment les LTm CD8+ sont générés à partir des LTe, nous avons émis l’hypothèse que la densité de l’Ag présenté par les CPA peut avoir un impact sur la sélection des LT CD8+ répondant l’Ag à se différencier en LTm. De manière intéressante, nos résultats montrent qu’une immunisation avec des cellules dendritiques (DCs) exprimant un haut niveau de complexe CMH/peptide à sa surface permet le développement de LTm. À l’inverse, le développement des LTm est fortement réduit (10-20X) lorsque les souris sont immunisées avec des DCs exprimant un niveau faible de complexes CMH/peptide à leur surface. De plus, la quantité d’Ag n’a aucune influence ni sur l’expansion des LT CD8+ ni sur l’acquisition de leurs fonctions effectrices, mais affecte de manière critique la génération des LTm. Nos résultats suggèrent que le nombre de RCT engagé lors de la reconnaissance de l’Ag est important pour la formation des LTm. Pour cela nous avons observé par vidéo-microscopie le temps d’interaction entre des LTn et des DCs. Nos résultats montrent que le temps et la qualité de l’interaction sont dépendants de la densité d’Ag présenté par les DCs. Effectivement, nous observons une diminution dans le pourcentage de LT faisant une interaction prolongée avec les DCs quand le niveau d’Ag est faible. De plus, nous observons des variations de l’expression des facteurs de transcription clefs impliqués dans la différenciation des LTm tels qu’Eomes, Bcl-6 et Blimp-1. Par ailleurs, la densité d’Ag fait varier l’expression du Neuron-derived orphan nuclear receptor 1 (Nor-1). Nor-1 est impliqué dans la conversion de Bcl-2 en molécule pro-apoptotique et contribue à la mort par apoptose des LTe pendant la phase de contraction. Notre modèle propose que la densité de l’épitope contrôle la génération des CD8+ LTm. Une meilleure compréhension des mécanismes impliqués dans la génération des LTm permettra le développement de meilleures stratégies pour la génération de vaccin. Dans un second temps, nous avons évalué le rôle du signal RCT dans l’homéostasie des LTm. Pour ce faire, nous avons utilisé un modèle de souris transgénique pour le RCT dont son expression peut être modulée par un traitement à la tétracycline. Ce système nous a permis d’abolir l’expression du RCT à la surface des LTm. De manière intéressante, en absence de RCT exprimé, les LTm CD8+ peuvent survivre à long terme dans l’organisme et rester fonctionnels. De plus, une sous population des LTm CD4+ a la capacité de survivre sans RCT exprimé dans un hôte lymphopénique alors que l’autre sous population nécessite l’expression du RCT.Following antigen (Ag) encounter presented at surface of antigen presenting cell (APC), naïve T lymphocytes, which express a T cell receptor (TCR) specific for Ag, undergo massive proliferation and differentiate into effector T cells (1). After elimination of the pathogen, most effector T cells die, while the remaining differenciates into memory T cells (LTm) which are responsible for long-term protection of the organism. The mechanism that promotes the differentiation of effectors T cells into memory T cells is still largely unknown. To understand how Tm cells are generated from effectors, we hypothesized that the density of antigen on the APC could have an impact on the selection of CD8+ T cell responders differentiating into memory. Very interestingly, our results show that immunization of mice with dendritic cells (DCs) expressing high levels of peptide-MHC complexes on their surface allow a strong development of LTm. In contrast, the development of memory T cells was strongly reduced (10-20X) when mice were immunized with DCs expressing two-fold less level of peptide-MHC complexes. In agreement with the results described above, the amount of Ag does not have any influence on T cell expansion and acquisition of effector functions, but critically affects memory T cell generation. Our data suggest that the numbers of TCR engaged in MHC/peptide recognition are important for the formation of memory T cells. To do that, we evaluated by time-lapse videomicroscopy the time of interaction between LTn and DCs. Effectively, we observed a significant reduction in the percentage of cells making prolonged interaction with DCs when the level of Ag is decreased. Moreover, we observed a modification in the expression of key transcription factors involved in the differentiation of Tm cells, such as Eomes, Bcl6 and Blimp-1. Further analysis reveals that the Ag density influences the expression of Neuron-derived orphan nuclear receptor 1 (Nor1). Nor-1 is involved in the conversion of Bcl-2 into a pro-apoptotic molecule and contributes to effector death by apoptosis during contraction phase. Our model proposes that density of Ag controls the generation of LTm. A better understanding of the role of TCR signals in the generation of LTm will help to develop better vaccination strategies. Second time, we have evaluated the role of TCR signals in Tm cell homeostasis. To do that, we have used a tetracycline-inducible expression system of the TCR in mice. This system allows us to abolish TCR expression on Tm cells. Interestingly, we show that the ablation of TCR expression did not influence the survival and functionnality of Ag-specific CD8+ LTm cells. Furthermore, our results show that a subset of CD4 Tm cells can survive in the absence of TCR expression in nonlymphopenic hosts while another subset requires the TCR expression to survive

Memory CD4 T cell subsets are kinetically heterogeneous and replenished from naive T cells at high levels

Characterising the longevity of immunological memory requires establishing the rules underlying the renewal and death of peripheral T cells. However, we lack knowledge of the population structure and how self-renewal and de novo influx contribute to maintenance of memory compartments. Here, we characterise the kinetics and structure of murine CD4 T cell memory subsets by measuring the rates of influx of new cells and using detailed timecourses of DNA labelling that also distinguish the behaviour of recently divided and quiescent cells. We find that both effector and central memory CD4 T cells comprise subpopulations with highly divergent rates of turnover, and show that inflows of new cells sourced from the naive pool strongly impact estimates of memory cell lifetimes and division rates. We also demonstrate that the maintenance of CD4 T cell memory subsets in healthy mice is unexpectedly and strikingly reliant on this replenishment

Epitope Density Influences CD8+ Memory T Cell Differentiation

The generation of long-lived memory T cells is critical for successful vaccination but the factors controlling their differentiation are still poorly defined. We tested the hypothesis that the strength of T cell receptor (TCR) signaling contributed to memory CD8(+) T cell generation.We manipulated the density of antigenic epitope presented by dendritic cells to mouse naïve CD8(+) T cells, without varying TCR affinity. Our results show that a two-fold decrease in antigen dose selectively affects memory CD8(+) T cell generation without influencing T cell expansion and acquisition of effector functions. Moreover, we show that low antigen dose alters the duration of the interaction between T cells and dendritic cells and finely tunes the expression level of the transcription factors Eomes and Bcl6. Furthermore, we demonstrate that priming with higher epitope density results in a 2-fold decrease in the expression of Neuron-derived orphan nuclear receptor 1 (Nor-1) and this correlates with a lower level of conversion of Bcl-2 into a pro-apoptotic molecule and an increased number of memory T cells.Our results show that the amount of antigen encountered by naïve CD8(+) T cells following immunization with dendritic cells does not influence the generation of functional effector CD8(+) T cells but rather the number of CD8(+) memory T cells that persist in the host. Our data support a model where antigenic epitope density sensed by CD8(+) T cells at priming influences memory generation by modulating Bcl6, Eomes and Nor-1 expression

Memory Phenotype CD4 T Cells Undergoing Rapid, Nonburst-Like, Cytokine-Driven Proliferation Can Be Distinguished from Antigen-Experienced Memory Cells

Contrary to the current paradigm that nearly all memory T cells proliferate in response to antigenic stimulation, this paper shows that an important population of CD4 T lymphocytes achieves memory/effector status independent of antigenic stimulation

CD40-Activated B Cells Can Efficiently Prime Antigen-Specific Naïve CD8+ T Cells to Generate Effector but Not Memory T cells

Background: The identification of the signals that should be provided by antigen-presenting cells (APCs) to induce a CD8 + T cell response in vivo is essential to improve vaccination strategies using antigen-loaded APCs. Although dendritic cells have been extensively studied, the ability of other APC types, such as B cells, to induce a CD8 + T cell response have not been thoroughly evaluated. Methodology/Principal Findings: In this manuscript, we have characterized the ability of CD40-activated B cells, stimulated or not with Toll-like receptor (TLR) agonists (CpG or lipopolysaccharide) to induce the response of mouse naïve CD8 + T cells in vivo. Our results show that CD40-activated B cells can directly present antigen to naïve CD8 + T cells to induce the generation of potent effectors able to secrete cytokines, kill target cells and control a Listeria monocytogenes infection. However, CD40-activated B cell immunization did not lead to the proper formation of CD8 + memory T cells and further maturation of CD40-activated B cells with TLR agonists did not promote the development of CD8 + memory T cells. Our results also suggest that inefficient generation of CD8 + memory T cells with CD40-activated B cell immunization is a consequence of reduced Bcl-6 expression by effectors and enhanced contraction of the CD8 + T cell response. Conclusions: Understanding why CD40-activated B cell immunization is defective for the generation of memory T cells and gaining new insights about signals that should be provided by APCs are key steps before translating the use of CD40-B cel

Me acompaña Dios. Algunas reflexiones bíblicas para el acompañante

El acompañamiento de Dios ha sido a lo largo de toda la historia de la salvación toda una odisea. Lo que más impacta es su cercanía constante, fiel amigo y compañero del camino del pueblo de Israel, de personas masculinas y femeninas que se han dejado seducir por Dios. El proyecto salvífico de Dios se concreta en la promesa de todo un pueblo tan numeroso como las estrellas, la liberación de la esclavitud de Egipto y la tierra prometida. Todos estos son elementos constitutivos de la alianza de Dios que acompaña al pueblo de Israel y que siempre acompaña a la humanidad: “De acuerdo a la tradición Yavista, y en base a los estudios especializados, un esquema al que se ajusta la imagen del Dios del Pentateuco es la del cercano, del amistoso, del antropomorfo que se pasea al atardecer con la primera pareja humana (Gn 3,8). Esta tesitura parece recogerse más espiritualizada en las tradiciones deuteronómicas y en algunos profetas que insisten en la dilección de Dios por su pueblo (Deut 6, 5.8). Pero es en el Jesús de Nazaret, en el NT, donde esa cercanía parece llegar hasta el límite de lo aceptable e imaginable, porque los textos pugnan por asegurar que en esa carne de Jesús está Emmanuel (Mt 1.21-23) y que ya por fin, no nos dejará contra toda apariencia de abandono. Así: ‘me acompaña Dios’”

CD8 engineered cytotoxic T cells reprogram melanoma tumor environment.

Cytotoxic T lymphocytes (CTL) from CD8β-deficient mice have powerful FasL-mediated cytotoxicity and IFNγ responses, but ablated Ca(2+) and NFAT signaling, which can be restored by transduction with CD8β. Upon infection with lymphocytic choriomeningitis virus (LCMV), these cells yielded GP33-specific CTL (CD8βR) that exhibited high FasL/Fas-mediated cytotoxicity, IFNγ CXCL9 and 10 chemokine responses. Transfer of these cells in B16-GP33 tumor bearing mice resulted in (i) massive T cell tumor infiltration, (ii) strong reduction of myeloid-derived suppressor cells (MDSCs), regulatory T cells (Treg) and IL-17-expressing T helper cells, (iii) maturation of tumor-associated antigen-presenting cells and (iv) production of endogenous, B16 melanoma-specific CTL that eradicated the tumor long after the transferred CD8βR CTL perished. Our study demonstrates that the synergistic combination of strong Fas/FasL mediated cytotoxicity, IFNγ and CXCL9 and 10 responses endows adoptively transferred CTL to reprogram the tumor environment and to thus enable the generation of endogenous, tumoricidal immunity

Improving the efficacy of hormone therapy in breast cancer: The role of cholesterol metabolism in SERM-mediated autophagy, cell differentiation and death

International audienceBreast cancer (BC) is one of the most common female cancers in the world, with estrogen receptor (ER)-positive BC the most frequent subtype. Tamoxifen (Tam) is an effective drug that competitively binds to the ER and is routinely used for the treatment of ER-positive BC. However, a number of ER-positive BC do not respond to Tam treatment and acquired resistance is often observed, constituting a major challenge for extending patient life expectancy. The mechanisms responsible for these treatment failures remain unclear, indicating the requirement for other targets and better predictors for patient response to Tam. One of Tam's off-targets of interest is the microsomal antiestrogen binding site (AEBS), a multiproteic complex made up of the cholesterol-5,6-epoxide hydrolase (ChEH) enzymes that are involved in the late stages of cholesterol biosynthesis. Tam and other selective ER modulators stimulate oxidative stress and inhibit the ChEH subunits at pharmacological doses, triggering the production and accumulation of cholesterol-5,6-epoxide metabolites responsible for BC cell differentiation and death. However, inhibition of the cholesterogenic activity of the AEBS subunits also induces the accumulation of sterol precursors, which triggers a survival autophagy to impair Tam's efficacy. Altogether, these studies have highlighted the involvement of cholesterol metabolism in the pharmacology of Tam that has provided new clues on how to improve its therapeutic efficacy in both BC and other cancers as well as offering a new rationale for developing more efficient drugs for BC treatment

Lysine-Dendrimer, a New Non-Aggressive Solution to Rebalance the Microbiota of Acne-Prone Skin

Acne is a chronic inflammatory skin disease that affects the quality of life of patients. Several treatments exist for acne, but their effectiveness tends to decrease over time due to increasing resistance to treatment and associated side effects. To circumvent these issues, a new approach has emerged that involves combating the pathogen Cutibacterium acnes while maintaining the homeostasis of the skin microbiome. Recently, it was shown that the use of a G2 lysine dendrigraft (G2 dendrimer) could specifically decrease the C. acnes phylotype (IAI) involved in acne, compared to non-acne-causing C. acnes (phylotype II) bacteria. In the present study, we demonstrate that the efficacy of this technology is related to its 3D structure, which, in contrast to the linear form, significantly decreases the inflammation factor (IL-8) linked to acne. In addition, our in-vitro data confirm the specific activity of the G2 dendrimer: after treatment of bacterial cultures and biofilms, the G2 dendrimer affected neither non-acneic C. acnes nor commensal bacteria of the skin (Staphylococcus epidermidis, S. hominis, and Corynebacterium minutissimum). In parallel, comparative in-vitro and in-vivo studies with traditional over-the-counter molecules showed G2’s effects on the survival of commensal bacteria and the reduction of acne outbreaks. Finally, metagenomic analysis of the cutaneous microbiota of volunteers who applied a finished cosmetic product containing the G2 dendrimer confirmed the ability of G2 to rebalance cutaneous acne microbiota dysbiosis while maintaining commensal bacteria. These results confirm the value of using this G2 dendrimer to gently prevent the appearance of acne vulgaris while respecting the cutaneous microbiota